Treadmill Assessment of an Activity-Modulated Pacemaker: The Importance of Individual Programming
HUGH F. McALISTER
Departments of Surgery and Medicine, Divisions of Cardiothoracic Surgery and Cardiology, Montefiore Medical Center, Bronx, New York
Search for more papers by this authorJUDITH SOBERMAN
Departments of Surgery and Medicine, Divisions of Cardiothoracic Surgery and Cardiology, Montefiore Medical Center, Bronx, New York
Search for more papers by this authorPETER KLEMENTOWICZ
Departments of Surgery and Medicine, Divisions of Cardiothoracic Surgery and Cardiology, Montefiore Medical Center, Bronx, New York
Search for more papers by this authorCAROLYN ANDREWS
Departments of Surgery and Medicine, Divisions of Cardiothoracic Surgery and Cardiology, Montefiore Medical Center, Bronx, New York
Search for more papers by this authorCorresponding Author
SEYMOUR FURMAN
Departments of Surgery and Medicine, Divisions of Cardiothoracic Surgery and Cardiology, Montefiore Medical Center, Bronx, New York
Address for reprints: Seymour Furman, M.D. Montefiore Medical Center, 111 East 210 Street Bronx, New York 10467.Search for more papers by this authorHUGH F. McALISTER
Departments of Surgery and Medicine, Divisions of Cardiothoracic Surgery and Cardiology, Montefiore Medical Center, Bronx, New York
Search for more papers by this authorJUDITH SOBERMAN
Departments of Surgery and Medicine, Divisions of Cardiothoracic Surgery and Cardiology, Montefiore Medical Center, Bronx, New York
Search for more papers by this authorPETER KLEMENTOWICZ
Departments of Surgery and Medicine, Divisions of Cardiothoracic Surgery and Cardiology, Montefiore Medical Center, Bronx, New York
Search for more papers by this authorCAROLYN ANDREWS
Departments of Surgery and Medicine, Divisions of Cardiothoracic Surgery and Cardiology, Montefiore Medical Center, Bronx, New York
Search for more papers by this authorCorresponding Author
SEYMOUR FURMAN
Departments of Surgery and Medicine, Divisions of Cardiothoracic Surgery and Cardiology, Montefiore Medical Center, Bronx, New York
Address for reprints: Seymour Furman, M.D. Montefiore Medical Center, 111 East 210 Street Bronx, New York 10467.Search for more papers by this authorAbstract
Maximum benefit from a rate-modulated pacemaker requires individualized programming of rate response settings. We tested an externally strapped activity-sensing pacemaker (Activitrax - Medtronic 8400) in eight healthy volunteers, to assess the pacing responses of the different rate response and activity threshold settings. Five males and three females, aged 20 to 70 years (mean 40), performed a total of 67 treadmill exercise tests, using a specijic protocol designed to assess the activity-sensing unit. The external unit was compared to implanted units in four patients, to validate its accuracy. A reproducible sinus response to the treadmill protocol was observed, against which pacing responses were compared. The activity threshold determines the degree of activity required to elicit a pacing rate response, whereas the rate response setting determines the rate attained. Rates of 140 bpm were rarely achieved, despite vigorous exercise. The sensor responds rapidly to activity, not to physiologic demand; to increase in speed, not grade. Four patients performed repeated limited treadmill tests to determine their optimum program setting, with symptomatic status and the healthy volunteer sinus response as guides. These results, and those from the external Activitrax unit, suggest that LOW 6 and MEDIUM 6–10 settings will prove optimum for most patients.
References
- 1 Rickards AF, Donaldson RM. Rate responsive pacing. CFFE 1983; 1: 12–19.
- 2 Karlof I. Haemodynamic effect of atrial triggered versus fixed rate pacing at rest and during exercise in complete heart block. Acta Med Scand 1975; 197: 195–206.
- 3 Fananapazir L, Bennett DH, Monks P. Atrial synchronized ventricular pacing: Contribution of the chronotropic response to improved exercise performance. FACE 1983; 6: 601–608.
- 4 Pehrsson SK. Influence of heart rate and atrioventricular synchronization on maximal work tolerance in patients treated with artificial pacemakers. Acta Med Scand 1983; 214: 311–315.
- 5 Kristensson B-E, Arnman K, Ryden L. The hemodynamic importance of atrioventricular synchrony and rate increase at rest and during exercise. Eur Heart J 1985; 6: 773–778.
- 6 Wiens RD, Lafia F, Marder CM, Evans RG, Kennedy HL. Chronotropic incompetence in clinical exercise testing. Am J Cardiol 1984; 54: 74–78.
- 7 Chin C-F, Messenger JC, Creenberg PS, Ellestad MH. Chronotropic incompetence in exercise testing. Clin Cardiol 1979; 2: 12–18.
- 8
Humen DP,
Anderson K,
Brumwell D,
Huntley S,
Klein GJ.
A pacemaker which automatically increases its rate with physical activity. In
K Steinbach, et al (eds): Cardiac Pacing.
Darmstadt
, Steinkopff Verlag, 1983, p.
259–264.
10.1007/978-3-642-72367-4_39 Google Scholar
- 9 Humen DF, Kostuk WJ, Klein GJ. Activity-sensing, rate-responsive pacing: Improvement in myocardial performance with exercise. PACE 1985; 8: 52–59.
- 10 Donaldson RM, Rickards AF. Rate responsive pacing using the evoked QT principle. A physiological alternative to atrial synchronous pacemakers. PACE 1983; 6: 1344–1349.
- 11 Donaldson RM, Fox K, Rickards AF. Initial experience with a physiological rate responsive pacemaker. Br Med J 1983; 286: 667–671.
- 12 Griffin JC, Jutzy KR, Claude JP, Knutti JW. Central body temperature as a guide to optimal heart rate. PACE 1983; 6: 498–501.
- 13 Alt E, Hirgstetter C, Heinz M, Blomer H. Rate control of physiologic pacemakers hy central venous blood temperature. Circulation 1986; 73: 1206–1212.
- 14 Rossi P, Aina F, Rognoni G, Occhetta E, Plicchi G, Prando MD. Increasing cardiac rate by tracking the respiratory rate. PACE 1984; 7: 1246–1256.
- 15 Rossi P, Plicchi G, Canducci G, Rognoni G, Aina F. Respiration as a reliable physiological sensor for controlling cardiac pacing rate. Br Heart J 1984; 51: 7–14.
- 16 Cammilli L, Alcidi L, Fapeschi G, Wiechmann V, Fadeletti L, Grassi G. Preliminary experience with the pH-triggered pacemaker. PACE 1978; 1: 448–457.
- 17 Wirtzfeld A, Heinze R, Stanzl K, Hoekstein K, Alt E, Liess HD. Regulation of pacing rate by variations of mixed venous oxygen saturation. PACE 1984; 7: 1257–1262.
- 18 Salo RW, Federson BD, Olive AL, Lincoln WC, Wallner TG. Continuous ventricular volume assessment for diagnosis and pacemaker control. PACE 1984; 7: 1267–1272.
- 19 Simmons T, Maloney J, Abi-Samra F, et al. Exercise-responsive intravascular impedance changes as a rate controller for cardiac pacing. PACE 1986; 9: 285 (abstract).
- 20 Cohen TJ. A theoretical right atrial pressure feedback heart rate control system to restore physiologic control to the rate-limited heart. PACE 1984; 7: 671–677.
- 21 Klein H, Olive A, Pederson B, Salo R, Shapland E, Schroder E. The pre-ejection interval: A reliable biosensor for rate-responsive pacing. PACE 1987; 10: 1215 (abstract).
- 22 Sharma AD, Yee R, Bennett T, et al. The effects of ventricular pacing on right ventricular maximum positive dP/dt: Implications for a rate-responsive pacing system based on this parameter. PACE 1987; 10: 1228 (abstract).
- 23 Hettleman BD, Higginbotham MB, Cobb FR. Minute ventilation, pulmonary artery oxygen saturation and temperature, and heart rate during exercise: Profiles for physiologic pacing. CPPE 1986; 4(suppl):7 (abstract).
- 24 Anderson KM, Moore AA. Sensors in pacing. PACE 1986; 9: 954–959.
- 25 Benditt DG, Mianulli M, Fetter J, et al. Single-chamber cardiac pacing with activity-initiated chronotropic response: Evaluation by cardiopulmonary exercise testing. Circulation 1987; 75: 184–191.
- 26 Faerestrand S, Breivik K, Ohm O-J. Assessment of the work capacity and relationship between rate response and exercise tolerance associated with activity-sensing rate-responsive ventricular pacing. PACE 1987; 10: 1277–1290.
- 27 Faerestrand S, Ohm O-J. Activity-sensing rate-responsive ventricular pacing vs ventricular pacing: Relation between left ventricular dimensions and improvement in work capacity. PACE 1987; 10: 1211 (abstract).
- 28 Faerestrand S, Ohm O-J. A time-related study by Doppler and M-mode echocardiography of hemodynamics, heart size, and AV valvular function during activity-sensing rate-responsive ventricular pacing. PACE 1987; 10: 507–518.
- 29 Lindemans FW, Rankin IR, Murtaugh R, Chevalier PA. Clinical experience with an activity sensing pacemaker. PACE 1986; 9: 978–986.
- 30 Murtaugh RA, Rueter JC, Watson WS. Activitrax clinical study report. Minneapolis , Medtronic Inc, October 1986.
- 31 Smedgard P, Kristensson B-E, Kruse I, Ryden L. Rate-responsive pacing by means of activity sensing vs single rate ventricular pacing: A double-Mind cross-over study. PACE 1987; 10: 902–915.
- 32 Zegelman M, Beyersdorf F, Kreuzer J, Cieslinski G. Rate responsive pacemakers: Assessment after two years. PACE 1986; 9: 1005–1009.
- 33 Maisch B, Langenfeld H. Rate adaptive pacing—Clinical experience with three different pacing systems. PACE 1986; 9: 997–1004.
- 34 Adamec R, Righetti A, Pasquier J, Faidutti B. Long term improvement of cardiac performance with activity rate dependent pacemaker (Activitrax). CPPE 1986; 4(suppI):10 (abstract).
- 35 Travill CM, Vardas P, Williams TDM, Ingram A, Lightman SL, Sutton R. Is atrial natriuretic peptide a guide to the adequacy of cardiac pacing mode JACC 1988; 11(2): 167A (abstract).
- 36 Patterson JA, Naughton J, Pietras RJ, Gunnar RM. Treadmill exercise in assessment of the functional capacity of patients with cardiac disease. Am J Cardiol 1972; 30: 757–762.
- 37 Bruce RA, Kusumi F, Hosmer D. Maximal oxygen intake and nomographic assessment of functional aerobic impairment in cardiovascular disease. Am Heart J 1973; 85: 546–562.
- 38 Moura PJ, Gessman LJ, Lai T, Gallagher JD, White M, Morse DP. Chronotropic response of an activity detecting pacemaker compared with the normal sinus node. PACE 1987; 10: 78–86.
- 39 den Dulk K, Bouwels L, Lindemans F, Rankin I, Brugada P, Wellens HJJ. The Activitrax rate responsive pacemaker system. Am J Cardiol 1988; 61: 107–112.
- 40 Lau C-P, Mehta D, Toff WD, Stott RJ, Ward DE, Camm AJ. Limitations of rate response of an activity-sensing rate-responsive pacemaker to different forms of activity. PACE 1988; 11: 141–150.
- 41 Hayes DL, Vlietstra RE, Christiansen J, Trusty J. Experience with an activity-sensing rate responsive pacemaker. PACE 1987; 10: 686 (abstract).
- 42 Gillette P. Critical analysis of sensors for physiological responsive pacing. PACE 1984. 7: 1263–1266.
- 43 Ellestad MH, Allen W, Wan MCK, Kemp GL. Maximal treadmill stress testing for cardiovascular evaluation. Circulation 1969; 39: 517–522.
- 44 Weber KT, Kinasewitz GT, West JS, Janicki JS, Reichek N, Fishman AP. Long-term vasodilatory therapy with trimazosin in chronic cardiac failure. N Engl J Med 1980; 303: 242–250.
- 45 Balke B, Ware R. An experimental study of physical fitness of Air Force personnel. US Armed Forces Med J 1959; 10: 675–688.
- 46 Janicki JS, Weber KT. Equipment and protocols to evaluate the exercise response. In KT Weber, JS Janicki (eds): Cardiopulmonary Exercise Testing: Physiologic Principles and Clinical Applications. Phila , WB Saunders, 1986, pp. 138–150.
- 47 Soberman J, McAlister HF, Klementowicz PT, Andrews C, Furman S. Paradoxical responses in activity-sensing pacemakers. PACE 1988; 11: 507(abstract).
- 48 Lau C, Stott JR, Toff WD, Zetlein M, Ward DE, Camm AJ. Vibration sensing: New design of activity sensing rate responsive pacemaker. PACE 1987; 10: 1217 (abstract).
- 49 Lemke B, Dryander StV, Lawo Th, Barmeyer J. Is there an adequate rate response during marching with an activity sensing pacemaker PACE 1987; 10: 1218 (abstract).
- 50 Mugica J, Henry L, Atchia B, Houeix JM, Birkui P. Results with rate responsive systems. PACE 1987; 10: 1222 (abstract).
- 51 Nobile A, Montenero S, Scabbia E, Zecchi P, BelIocci F. Long-term follow-up of activity sensing rate responsive pacemaker. PACE 1987; 10: 1223 (abstract).
- 52 Winter UJ, Kochs MG, Hopp HW, et al. Clinical benefits of activity sensing rate-responsive single chamber cardiac pacing: Clinical results. PACE 1987; 10: 1233 (abstract).
- 53 Kocovic D, Djordjevic M, Jelic V, Velimirovic D, Stojanov P, Pavlovic S. The optimal rate for a given age group with rate responsive systems. PACE 1987; 10: 1216 (abstract).
- 54 Forbath PG, Hart J, Besser W, Percy K. Exercise test adjusted rate programming of motion sensing VVI pacemakers. PACE 1987; 10: 1212 (abstract).
- 55 Sernesi L, Greco EM, Ariotti M, Eriano G, Kheir A, Lotto A. Non-invasive comparison of spontaneous heart rate and Activitrax pulse generator responsivity to exercise in normal subjects. PACE 1987; 10: 1218 (abstract).
- 56 Barin E, Gale A, Ross D, Hellestrand K. Evaluation of the Activitrax pacemaker during isometric and dynamic exercise: Prediction of heart rate responses. PACE 1986; 9: 286 (abstract).
- 57 Hatori M, Hasegawa A, Suzuki T, Murata K. The useful method of determining the adequate rate responsiveness in the activity-sensing pacemaker. PACE 1987; 10: 1213 (abstract).
- 58 Benditt DG, Mianulli M, Church T, Markowitz T, Wibel F, Beutikoffer J. Predicting chronotropic response of activity-initiated rate-variable pacemakers: Development of a simplified exercise procedure. PACE 1987; 10: 425 (abstract).
- 59 Maksud MG, Coutts KD, Hamilton LH. Time course of heart rate, ventilation and V02 during laboratory and field exercise. J Appl Physiol 1971; 30: 536–539.
- 60 Sermasi S, Marzaloni M, Rusconi L, Marconi M, Antonioli GE. Role and importance of programming procedure for an optimal rate adaptation using the TX pacemaker. PACE 1987; 10: 1228 (abstract).
- 61 Rossi P, Plicchi G, Canducci GC, Rognoni G, Aina F. The implantable respiratory dependent pacemaker. Clinical method for fitting individual metabolic need. PACE 1983; 6:A-13 (abstract).
- 62 Griffin J, Alt E, Nielson A, Calfee R. Venous blood temperature to pacing rate: Importance of the algorithm. CPPE 1986; 4(Suppl):2 (abstract).
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